The regulatory role of cyclic AMP in hormone-induced of granulosa cell differentiation

Interaction between growing oocytes and granulosa cells in vitro

BACKGROUND

Oocyte growth is accompanied by follicular development in mammalian ovaries. Since the discovery of two oocyte-derived factors, growth differentiation factor 9 (GDF9), and bone morphogenetic protein 15 (BMP15), knowledge of the bidirectional communication between oocytes and granulosa cells for ovarian function and fertility has been accumulated. In addition, the growth culture system of oocytes has been improved, further promoting the studies on the communication between oocytes and granulosa cells in vitro.

METHODS

We provide an overview of the role of granulosa cells in oocyte growth and the role of oocytes in follicular development along with our recent findings in culture experiments of bovine growing oocytes.

MAIN FINDINGS

Granulosa cells supply nutrients and metabolites through gap junctions to oocytes and secrete paracrine signals to regulate oocytes. Oocytes regulate granulosa cell proliferation and differentiation and induce antrum formation via GDF9 and BMP15.

CONCLUSION

Oocytes actively participate in various aspects of follicular development, including antrum formation via the oocyte-derived factors GDF9 and BMP15, whose synthesis is probably regulated by granulosa cells. In vitro studies will reveal the precise communication loop between oocytes and granulosa cells that facilitates the coordinated development of oocytes and granulosa cells in the follicles.

Growth Hormone and Insulin-Like Growth Factor Action in Reproductive Tissues

The role of growth hormone (GH) in human fertility is widely debated with some studies demonstrating improvements in oocyte yield, enhanced embryo quality, and in some cases increased live births with concomitant decreases in miscarriage rates. However, the basic biological mechanisms leading to these clinical differences are not well-understood. GH and the closely-related insulin-like growth factor (IGF) promote body growth and development via action on key metabolic organs including the liver, skeletal muscle, and bone. In addition, their expression and that of their complementary receptors have also been detected in various reproductive tissues including the oocyte, granulosa, and testicular cells. Therefore, the GH/IGF axis may directly regulate female and male gamete development, their quality, and ultimately competence for implantation. The ability of GH and IGF to modulate key signal transduction pathways such as the MAP kinase/ERK, Jak/STAT, and the PI3K/Akt pathway along with the subsequent effects on cell division and steroidogenesis indicates that these growth factors are centrally located to alter cell fate during proliferation and survival. In this review, we will explore the function of GH and IGF in regulating normal ovarian and testicular physiology, while also investigating the effects on cell signal transduction pathways with subsequent changes in cell proliferation and steroidogenesis. The aim is to clarify the role of GH in human fertility from a molecular and biochemical point of view.

Cellular cholesterol delivery, intracellular processing and utilization for biosynthesis of steroid hormones

Steroid hormones regulate diverse physiological functions such as reproduction, blood salt balance, maintenance of secondary sexual characteristics, response to stress, neuronal function and various metabolic processes. They are synthesized from cholesterol mainly in the adrenal gland and gonads in response to tissue-specific tropic hormones. These steroidogenic tissues are unique in that they require cholesterol not only for membrane biogenesis, maintenance of membrane fluidity and cell signaling, but also as the starting material for the biosynthesis of steroid hormones. It is not surprising, then, that cells of steroidogenic tissues have evolved with multiple pathways to assure the constant supply of cholesterol needed to maintain optimum steroid synthesis. The cholesterol utilized for steroidogenesis is derived from a combination of sources: 1) de novo synthesis in the endoplasmic reticulum (ER); 2) the mobilization of cholesteryl esters (CEs) stored in lipid droplets through cholesteryl ester hydrolase; 3) plasma lipoprotein-derived CEs obtained by either LDL receptor-mediated endocytic and/or SR-BI-mediated selective uptake; and 4) in some cultured cell systems from plasma membrane-associated free cholesterol. Here, we focus on recent insights into the molecules and cellular processes that mediate the uptake of plasma lipoprotein-derived cholesterol, events connected with the intracellular cholesterol processing and the role of crucial proteins that mediate cholesterol transport to mitochondria for its utilization for steroid hormone production. In particular, we discuss the structure and function of SR-BI, the importance of the selective cholesterol transport pathway in providing cholesterol substrate for steroid biosynthesis and the role of two key proteins, StAR and PBR/TSO in facilitating cholesterol delivery to inner mitochondrial membrane sites, where P450scc (CYP11A) is localized and where the conversion of cholesterol to pregnenolone (the common steroid precursor) takes place.

EGF-like factor epiregulin and amphiregulin expression is regulated by gonadotropins/cAMP in human ovarian follicular cells

Epiregulin and amphiregulin are growth factors involved in cancer development, but their potential role in signaling in the gonads is still obscure. We report here that basal expression of these growth factors is evident in human granulosa cells obtained from women treated for in vitro fertilization, when examined by RT-PCR using RNA isolated from primary cultures of ovarian granulosa cells. Expression of these factors was elevated concomitantly with elevation of progesterone production in these cells upon stimulation with luteinizing hormone (LH), and to a lesser extent with follicle stimulating hormone (FSH), both essential stimulants for ovulation and luteinization. Epiregulin and amphiregulin gene expression was dose- and time-dependent when measured subsequent to LH stimulation. Moreover, forskolin, which activates adenylate cyclase, was as efficient as LH in stimulating expression of these growth factors. It is suggested that upregulation of the epiregulin and amphiregulin expression is part of the signal transduction pathway which leads to ovulation and luteinization in the human ovary.

Effect of the gonadotropin-releasing hormone antagonist ganirelix on cyclic adenosine monophosphate accumulation of human granulosa-lutein cells

OBJECTIVE

To evaluate whether the GnRH antagonist ganirelix exerts an effect on cyclic adenosine monophosphate (cAMP) production of human granulosa-lutein (GL) cells in vitro.

DESIGN

In vitro cell culture study.

SETTING

Research laboratory of a university hospital.

PATIENT(S)

Mural GL and cumulus cells were obtained from 15 patients on whom controlled ovarian hyperstimulation was being performed for intracytoplasmic sperm injection treatment.

INTERVENTION(S)

Mural GL and cumulus cells were cultured for 48 hours with and without 1 nM ganirelix or triptorelin. For the last 6 hours, the cells were either exposed to 1-5 IU hCG or left unstimulated.

MAIN OUTCOME MEASURE(S)

At the end of the culturing period, the intracellular and extracellular cAMP accumulations were measured by an (125)I-scintillation proximity assay.

RESULT(S)

hCG induced dose-dependent increases in total cAMP accumulation. Stimulation with 1 IU/mL hCG resulted in 9-fold and 13-fold increases, and 5 IU/mL hCG resulted in 19-fold and 14-fold increases in total cAMP release from cumulus and mural GL cells, respectively. On the other hand, treatments with 1 nM GnRH antagonist ganirelix and 1 nM GnRH agonist triptorelin did not exert any significant changes on the basal and hCG-stimulated cAMP accumulation of mural GL cells and cumulus cells as compared with controls.

CONCLUSION(S)

Ganirelix does not influence basal and hCG-stimulated cAMP accumulation of human GL cells in vitro. cAMP is apparently not involved in the mechanism of action of GnRH analogs in human ovary.

Synaptosome-associated protein of 25 kilodaltons in oocytes and steroid-producing cells of rat and human ovary: molecular analysis and regulation by gonadotropins

The synaptosome-associated protein of 25 kDa (SNAP-25) is crucially involved in exocytosis in neurons. The aim of this study was to investigate whether it is present in the ovary. We found SNAP-25 to be expressed in nonneuronal cells of the rat and human ovary, namely in all oocytes and in steroidogenic cells, including granulosa cells (GC) of large antral follicles and luteal cells. Both isoforms, SNAP-25a and b, were found in the ovary. Oocytes obtained by laser capture microdissection were shown to express SNAP-25b, whereas SNAP-25a was found in rat GC and human luteinized GC. Immunohistochemical observations of strong SNAP-25 staining in GC of large growing antral follicles compared with absent or weak staining in small follicles suggested a role in folliculogenesis. To study a presumed regulation of SNAP-25, we used a rat GC line (GFSHR-17), which expresses FSH receptors, and luteinizing human GC, which express LH receptors. FSH elevated SNAP-25 mRNA and protein levels about fivefold within 24 h in GFSHR-17 cells. The cAMP analogue dibutyryl-cAMP (db-cAMP) mimicked this action of FSH. The effects of both db-cAMP and FSH were inhibited by the protein kinase A (PKA) inhibitor H89. In contrast, SNAP-25 protein and mRNA-levels were not altered by LH/hCG in luteinized human GC. Our results for the first time identify SNAP-25b in oocytes and SNAP-25a in steroidogenic cells of the mammalian ovary. SNAP-25a and b may be involved in different exocytotic processes in these cell types.

Control of the expression of luteinizing hormone receptor by local factors in rat granulosa cells

To identify the mechanisms underlying the hormone-dependent induction and maintenance of luteinizing hormone receptor (LH-R) in rat granulosa cells, the effect of follicle-stimulating hormone (FSH) and local factors on the LH-R mRNA levels were studied. LH-R mRNA levels of the cells incubated with FSH decreased rapidly after medium removal, and readdition of FSH with the fresh medium did not restore these levels. On the other hand, 8-bromoadenosine 3,5-cyclic monophosphate significantly enhanced the expression of LH-R mRNA after medium removal, while the level of LH-R mRNA was lower than that of the cells replaced by original medium including FSH. In addition, the incubation with 8-Br-cAMP produced dose-dependent responses for LH-R mRNAs and enhanced the activity of 1379 bp of the LH-R 5'-flanking region, while the level of LH-R mRNA decreased 3 days after medium removal. Further studies were undertaken to assess the role of factors in maintaining the LH receptor once induced by FSH. Since FSH and cAMP increase follistatin production in granulosa cells, we examined the effect of follistatin on LH-R induction in the presence of activin and FSH. Activin induced LH-R in the presence of FSH significantly, and follistatin antagonized this effect in a dose-dependent manner. However, insulinlike growth factor-I (IGF-I) induced LH-R mRNA in the presence of FSH even after medium change. IGF-I might be one of the important factors that act in the medium to maintain LH-R levels in granulosa cells.

Follicle-stimulating hormone promotes histone H3 phosphorylation on serine-10

FSH promoted the rapid phosphorylation of the nuclear protein histone H3 in immature rat ovarian granulosa cells under experimental conditions that lead to cellular differentiation and not proliferation. FSH-stimulated histone H3 phosphorylation correlated with cAMP-dependent protein kinase A (PKA) activation and translocation of the PKA catalytic subunit to a nuclear-enriched fraction and was inhibited by the PKA inhibitor H89, and histone H3 phosphorylation was stimulated in cells treated with agents that raise intracellular cAMP levels such as forskolin and 8-bromo-cAMP. FSH-stimulated histone H3 phosphorylation in granulosa cells mapped to ser-10, a site previously identified as the PKA phosphorylation site in various mitotically active cells as the mitosis-specific phosphorylation site. Injection of the FSH analog PMSG to immature rats, which is known to stimulate granulosa cell proliferation as well as differentiation, also promoted histone H3 phosphorylation on ser-10 in granulosa cells. These results establish that FSH-stimulated histone H3 phosphorylation in granulosa cells is linked not only to granulosa cell mitosis but also to granulosa cell differentiation and that FSH-stimulated histone H3 phosphorylation on ser-10 in isolated granulosa cells is mediated by PKA. These results also identify the PKA-dependent histone H3 phosphorylation as an early nuclear protein marker for FSH-stimulated differentiation of granulosa cells. Based on the recently described function of histone H3 as a coactivator of transcription, these results are consistent with the hypothesis that phosphorylated histone H3 may facilitate PKA-dependent gene transcription in granulosa cells leading to the preovulatory phenotype.

Mouse oocytes suppress cAMP-induced expression of LH receptor mRNA by granulosa cells in vitro

Mouse oocytes suppress follicle-stimulating hormone (FSH)-induced luteinizing hormone receptor (LHR) messenger ribonucleic acid (mRNA) expression in cultured granulosa cells. The objective of this study was to assess the mechanism by which oocytes suppress FSH-induced LHR expression. The effect of cumulus cell-denuded, germinal-vesicle-stage oocytes, isolated from antral follicles, on FSH-induced cyclic adenosine monophosphate (cAMP) production by cultured granulosa cells was determined by radioimmunoassays. In addition, the effect of oocytes on 8Br-cAMP-induced LHR mRNA steady-state expression by granulosa cells was assessed by RNase protection assays. Oocytes had no detectable effect on FSH-induced cAMP production. However, oocytes dramatically suppressed 8Br-cAMP-induced LHR mRNA steady-state expression by granulosa cells. It was concluded that the mechanism by which oocytes suppress FSH-induced steady-state expression of LHR mRNA is not by inactivating FSH, preventing functional interactions of FSH with its granulosa cell receptors, or by interfering with the signal-transduction mechanisms required for FSH-dependent cAMP production. In addition, since oocytes suppressed the 8Br-cAMP-induced increase in steady-state expression of mRNA for LHR, oocyte-derived factors probably suppress expression by acting downstream of FSH-induced elevation of granulosa cell cAMP.

A mutation in the follicle-stimulating hormone receptor occurs frequently in human ovarian sex cord tumors

A subset of ovarian tumors, referred to as sex cord-stromal tumors, produce endocrine manifestations due to the secretion of estrogens or androgens. Because gonadotropins induce the growth, differentiation, and function of the steroid-producing cells of the ovary, we hypothesized that mutations in the FSH receptor (FSH-R) might occur in this group of tumors. Ovarian sex cord tumors (n = 13), small cell carcinomas of the ovary (n = 3), and control DNA specimens (n = 116) were screened for mutations in the transmembrane domains of the FSH-R. A heterozygous T-->C mutation was found at nucleotide 1777 that converts codon 591 from phenylalanine to serine (F591S). This sixth transmembrane domain mutation was found in 9 of 13 (69%) sex cord tumors and 2 of 3 ovarian small cell carcinomas, but it was not present in control specimens, including 5 normal ovaries, 5 nonsex cord ovarian tumors, 16 thyroid tumors, or 90 specimens of peripheral blood leukocyte DNA, suggesting that this nucleotide change is not a polymorphism. The functional effects of identified mutations were assessed by expression of the wild-type or the F591S mutant FSH-R in COS-7 cells. The F591S mutation eliminated FSH-stimulated cAMP production, and a similar effect was observed when this mutation was introduced into the homologous location of the LH receptor. The high prevalence of the F591S mutation in the FSH-R suggests that it plays a role in the development of ovarian sex cord tumors.

Apoptosis in steroidogenic cells: structure-function analysis

Granulosa cells are the main producers of the female sex steroid hormones, progesterone and estradiol, which are responsible for the cyclicity in ovarian function. Programmed cell death in the ovary plays a crucial role in limiting the number of follicles that can ovulate and thus prevents the development of more embryos than can successfully complete pregnancy. Granulosa cell apoptosis is regulated by the concerted action of endocrine, paracrine, and autocrine factors. These factors lead to the developmental decision of whether the steroidogenic cell will luteinize and enter the pathway leading to programmed cell death, or whether the life span of the luteinized cell will be prolonged to continue secretion of progesterone, which is essential for the maintenance of pregnancy. At the level of the individual cell, we find that enhanced steroidogenesis can be maintained during the initial steps of apoptosis as long as the steroidogenic apparatus remains intact. This can be achieved by a unique mechanism of compartmentalization of steroidogenic organelles in the perinuclear region and migration of the multicatalytic proteinase, the proteasome, to the apoptotic blebs. Reorganization of the actin cytoskeleton during apoptosis may provide an efficient barrier between the proteolytic activity and the steroidogenic activity in the apoptotic cell. It is suggested that steroidogenesis can be maintained in the apoptotic cells as long as the steroidogenic organelles bearing the steroidogenic apparatus remain intact.

Regulation of follicle-stimulating hormone receptor messenger ribonucleic acid levels in cultured rat granulosa cells

The acquisition of follicle-stimulating hormone (FSH) receptors during follicogenesis is believed to be a key event in the subsequent development of the follicle. We have examined the effect of FSH on FSH receptor mRNA in cultured rat granulosa cells by means of FSH receptor cRNA probe. Northern blot analysis indicated the existence of two predominant FSH receptor mRNA transcripts of approximately 5.5 and 2.4 kb in total RNA prepared from rat granulosa cells. Treatment of granulosa cell culture with FSH resulted in tentative suppression of FSH receptor mRNA level 2-6 h after treatment, with subsequent recovery at 24 h. Culture of granulosa cells for 6 h in the presence of increasing concentration of FSH resulted in a dose-dependent decrease in FSH receptor mRNA with a maximal suppression about 50% of control observed in response to 100 ng/ml FSH. We could not detect a similar effect on FSH receptor mRNA by 8-brom-adenosine 3,5-cyclic monophosphate (8-Br-cAMP; 0.2 mM) which showed continuous stimulation on FSH receptor mRNA during a similar time course. In this system, therefore, this transient down-regulation of FSH mRNA was not mediated by the cAMP pathway. Since the inhibitory effect of follistatin on activin-induced FSH binding to rat granulosa cells had been investigated, we studied the action of follistatin on the levels of activin-induced FSH receptor mRNA in rat granulosa cell culture.(ABSTRACT TRUNCATED AT 250 WORDS)

Basic fibroblast growth factor induces luteinizing hormone receptor expression in the presence of insulin-like growth factor-I in ovarian granulosa cells

Effect of basic fibroblast growth factor (bFGF) on the expression of receptors for luteinizing hormone (LH), a marker of differentiation, was studied using estrogen-primed rat ovarian granulosa cells in primary culture. bFGF had no effect by itself but dose-dependently induced expression of functional LH receptors in the presence of insulin-like growth factor-I (IGF-I). The effect of a combination of bFGF and IGF-I was delayed in onset and the magnitude of the response was smaller when compared to the action of follicle-stimulating hormone (FSH). Scatchard analysis revealed that dissociation constant (Kd) and number of LH receptors induced by bFGF and IGF-I were 0.47 nM and 6.48 fmol/10(6) cells, respectively. Unlike FSH, bFGF plus IGF-I did not cause an immediate increase in cAMP release, however, considerable amount of cAMP release was observed in cells incubated for 72 h with bFGF plus IGF-I. Indomethacin, an inhibitor of cyclooxygenase, attenuated both LH receptor expression and cAMP release induced by bFGF plus IGF-I but had little effect on the action of FSH. Finally, a combination of bFGF and IGF-I increased production of prostaglandin E2 in granulosa cells. These results indicate that bFGF is capable of inducing LH receptor in the presence of IGF-I by a mechanism involving production of prostaglandin E2.

Granulosa cell luteinizing hormone receptor expression is modulated by ganglioside-specific ligands

The ganglioside GM1 (Gal beta 1-->3GalNAc beta 1-->4[NeuAc alpha 2-->3] Gal beta 1-->4Glc beta 1-->1Cer) was synthesized during granulosa cell development in vitro, and the effect of the interaction between cell-surface GM1 and its ligands on the luteinizing hormone (LH) receptor expression was investigated. GM1 synthesis, demonstrated by metabolic labeling of glycosphingolipids with [3H]galactose and binding studies using the 125I-B-subunit of cholera toxin, a specific ligand for GM1, was increased in follicle-stimulating hormone (FSH)-treated granulosa cells. When granulosa cells were cultured for 72 h in a medium containing the B-subunit of cholera toxin, FSH-induced LH-receptor contents determined by measuring the binding of 125I-deglycosylated human chorionic gonadotropin to intact cells, was augmented. The stimulatory effect of the B-subunit was dependent on the FSH concentration and culture duration. The augmentation was observed after culture for 48 h, and marked increases were evident after 72 h, which coincided with an increase of the 125I-B-subunit binding capacity. Scatchard analysis of the LH-receptor binding indicated that treatment with the B-subunit increased the number of LH-binding sites (6580 sites/cell after treatment with 20 ng/ml FSH; 11,290 sites/cell after FSH plus 100 ng/ml B-subunit), but did not alter the binding affinity. A specific antibody against GM1 mimicked the stimulatory effect of the B-subunit. The augmentation was not accompanied by granulosa cell proliferation. These findings suggest that binding of exogenous or possible endogenous ligands to cell-surface GM1 produces signals and modulates the cellular behavior during granulosa cell development.

Follicle-stimulating hormone (FSH) receptors and FSH-responsive adenosine 3',5'-cyclic monophosphate production in porcine granulosa cells decline with follicular growth

Comparison of binding of 125I-porcine FSH to porcine granulosa cells from small and large ovarian follicles indicated that binding is dependent on both time and temperature. At 37 C, binding of ligand is more than four times higher in cells from small follicles than in cells from large follicles within 30 minutes of the start of incubation. Binding to cells from both small and large follicles is more stable for a longer period of time at 20 C than at 37 C. Equilibrium saturation binding analysis of 125I-pFSH binding indicated that binding is saturable and of high affinity. Granulosa cells from small and large follicles have similar affinities for 125I-pFSH. However, granulosa cells from small follicles have 4.7-times as many FSH receptors as granulosa cells from large follicles. The sensitivity and responsiveness of the adenylyl cyclase system to FSH were assessed by incubating cells from small and large follicles with increasing concentrations of FSH in a defined medium containing isobutylmethylxanthine (1 mM), an inhibitor of phosphodiesterase. Granulosa cells from small follicles are more sensitive to FSH and have a greater cAMP response to FSH than granulosa cells from large follicles. Thus, both active FSH receptors and FSH-responsive adenylyl cyclase activity decline during follicular growth.

Does oligosaccharide-phosphatidylinositol (glycosyl-phosphatidylinositol) hydrolysis mediate prolactin signal transduction in granulosa cells?

Initial biosynthetic radiolabelling experiments with cultured granulosa cells revealed the presence of an oligosaccharide-phosphatidylinositol (glycosyl-phosphatidylinositol; (Ose)nPtdIns) structurally related to (Ose)nPtdIns-lipids isolated from other cell types. Prolactin (PRL) stimulated [3H]glucosamine-(Ose)nPtdIns turnover and the rapid generation of [3H]myristoyl-diacylglycerol in cultured follicle-stimulating hormone-(FSH)-primed granulosa cells endowed with PRL receptors. In parallel experiments performed with [3H]myo-inositol-labelled granulosa cells, treatment with PRL stimulated (Ose)nPtdIns hydrolysis in a similar manner, whereas no effect on phosphoinositide (PtdIns, PtdInsP and PtdInsP2) turnover could be observed. These results strongly suggest that the cleavage of (Ose)nPtdIns by phosphodiesterase followed by the subsequent generation of diacylglycerol and a soluble phosphoinositol-oligosaccharide (inositol-phosphoglycan; (Ose)nInsP) moiety could be part of the signal-transduction mechanism linking PRL receptors to their biological effects in granulosa cells. To test this hypothesis, we examined the effect of PRL and purified (Ose)nInsP moiety (from rat liver membranes) on granulosa cell 3 beta-hydroxysteroid dehydrogenase/delta 5-4 isomerase (3 beta-HSD) enzyme activity. Results presented show that, in FSH-primed granulosa cells, PRL (40 nM) and (Ose)nInsP (5 microM) prevented gonadotropin-stimulated 3 beta-HSD activity. Furthermore, in undifferentiated granulosa cells where PRL receptors are absent, no effect of the hormone on 3 beta-HSD activity could be observed, whereas (Ose)nInsP (1-10 microM) inhibited enzyme activity in a dose-dependent manner.

The differential effects of FSH and LH on the human ovary

The basic foundation for normal puberty and adult reproductive function is established during fetal life with the adequate development of the hypothalamus, pituitary and gonads. Further maturation and differentiation of the hypothalamic-pituitary-gonadal axis continues throughout childhood, puberty, adult life and senescence. Pituitary FSH and LH play a central role in the cascade of events in the hypothalamic-pituitary-gonadal axis by mediating between the brain and hypothalamus on one hand and the end-organ, the ovary, on the other. Absent or low pituitary secretion of FSH and LH, as occurs in hypothalamic/pituitary hypogonadism, leads in women to anovulation, amenorrhoea and absent ovarian follicular development. The ability of gonadotrophins to modulate ovarian function depends on their rate of synthesis by the pituitary gonadotrophs, on their circulating concentrations (which vary throughout life and throughout the menstrual cycle), on the relative abundance of the multiple forms of gonadotrophins that have varying biological activity, on the presence of their receptors on the different cell types of the ovary, on the intracellular adenylate cyclase enzyme that causes the production of cAMP, and on the extra- and intragonadal factors that are able to modulate the effects of gonadotrophins in the ovary. Recent clinical and basic research with recombinant gonadotrophins, molecular biological studies on the localization, function and regulation of the long sought after gonadotrophin receptors, as well as research on the interaction between gonadotrophins and local intragonadal factors have widened our knowledge about the function and role of FSH and LH in the ovary and have provided new insights into previously unanswered questions of ovarian physiology and pathophysiology and will provide the basis for the design of new treatment strategies to overcome ovulatory gonadotrophin-dependent dysfunction in the future.

Follicle-stimulating hormone and human chorionic gonadotropin induced changes in granulosa cell glycosyl-phosphatidylinositol concentration

In the present investigation, a hCG sensitive glycosyl-phosphatidylinositol (GPI) was isolated from cultured rat granulosa cells obtained from the ovaries of diethylstilbestrol (DES) implanted immature rats. The inositol-phosphoglycan (IPG) moiety of the GPI-lipid contains galactose, glucosamine, and myoinositol as demonstrated by metabolic labelling of granulosa cells for different time periods (5-96 h) with [3H]galactose, [3H]glucosamine, or [3H]myoinositol and treatment of the purified [3H]GPI with phosphatidylinositol-specific phospholipase C. Labelling equilibrium of the GPI-lipid was achieved after 24 h ([3H]galactose and [3H]myoinositol) or 72 h ([3H]glucosamine) incubation, whereas incorporation of other labelled carbohydrates tested ([3H]galactosamine, [3H]mannose, and [3H]sorbitol) was negligible throughout the time period studied. The glucosamine C-1 appears to be linked through a glycosidic bond to the myoinositol molecule of the IPG moiety as revealed by the generation of phosphatidylinositol (PtdIns) after nitrous acid deamination of dual labelled ([3H]glucosamine/[14C]palmitate or [3H]glucosamine/[14C]myristate) glycosyl-phosphatidylinositol. To investigate the fatty acid composition of the diacylglycerol (DAG) backbone of the GPI, granulosa cells were also labelled (5-72 hr) with [14C]linoleate, [3H]myristate, [3H]oleate, [3H]palmitate, or [3H]stearate and the radioactivity associated with the purified glycosyl-phosphatidylinositol determined. Incorporation of [3H]palmitate and [3H]myristate into the GPI-lipid peaked after 8 h and 24 h of labelling, respectively, and both fatty acids were partially released after PLA2 treatment of the dual labelled ([3H]glucosamine/[14C]palmitate or [3H]glucosamine/[14C]myristate) GPI. In parallel experiments no significant incorporation of labelled stearate, oleate, or linoleic acid into the DAG backbone of the glycosylphosphatidylinositol could be detected. Granulosa cells were also labelled with [3H]glucosamine in the presence of FSH (30 ng/ml), cholera toxin (1 microgram/ml), or the membrane permeable cAMP analog (but)2cAMP (1 mM). Time related increases in GPI-labelling were apparent after 48 h and reached a maximum level (3-, 5-, and 7-fold for FSH, CT, and (but)2cAMP, respectively) after 72 h in culture. In another set of experiments, granulosa cells were labelled for 72 h with [3H]glucosamine in the presence of (but)2cAMP (1 mM), TPA (10(-7) M), or combination thereof. The effect of treatment with the membrane permeable cAMP analog on GPI labelling was prevented in the presence of TPA, whereas no differences in [3H]GPI content could be observed in untreated granulosa cells or cells cultured in the presence of the protein kinase C-activating phorbol ester alone.(ABSTRACT TRUNCATED AT 400 WORDS)

Enhancement of ganglioside GM3 synthesis in okadaic-acid-treated granulosa cells

Okadaic acid is a potent inhibitor of type-2A (PP2A) and type-1 (PP1) protein phosphatases and has been proved to be a valuable tool for studies on the protein phosphorylation. We have investigated the effects of okadaic acid on rat granulosa cells in order to determine whether the regulation of ganglioside synthesis involves protein phosphorylation via inhibition of PP2A and PP1. Granulosa cells expressed luteinizing hormone (LH) receptors, measured as the binding of 125I-deglycosylated human chorionic gonadotropin (hCG) to intact cells, and synthesized the gangliosides NeuAc alpha 2-->3Gal beta 1-->4Glc beta 1-->1Cer (GM3) and Gal beta 1-->3GalNAc beta 1-->4[NeuAc alpha 2-->3]Gal beta 1-->4Glc beta 1-->1Cer (GM1), demonstrated by metabolic labeling of glycosphingolipids with [3H]galactose, in response to follicle-stimulating hormone (FSH). When FSH-stimulated granulosa cells were treated with 10 nM okadaic acid for 15 h, down-regulation of LH receptors, dissociation of LH receptor-effector coupling and significant decreases of intracellular and extracellular 3',5'-cyclic adenosine monophosphate (cAMP) levels were observed. The okadaic acid-induced desensitization to gonadotropin in granulosa cells was accompanied by increased ganglioside synthesis. The amount of 3H-labeled ganglioside GM3, the major ganglioside (about 95% of the total) synthesized by mature granulosa cells, was enhanced in okadaic acid-desensitized cells (to 215% of the control value) and in those desensitized by hCG (by 354%), forskolin (by 190%) and 12-O-tetradecanoylphorbol 13-acetate (by 143%). The results of this study suggest that an increase in the phosphorylation state of cells is accompanied by enhancement of ganglioside synthesis.

Biphasic effects of exogenous ganglioside GM3 on follicle-stimulating hormone-dependent expression of luteinizing hormone receptor in cultured granulosa cells

The major ganglioside NeuAc alpha 2-->3Gal beta 1-->4Glc beta 1-->1Cer (GM3) present in cultured rat granulosa cells was examined for potential function in the expression of luteinizing hormone (LH) receptor on the cell surface in response to follicle-stimulating hormone (FSH). Synthesis of GM3 was stimulated concentration-dependently by FSH, and the stimulation was enhanced synergistically by insulin, as revealed by metabolic labeling of glycosphingolipids with [3H]galactose. When granulosa cells were cultured in the media containing GM3 (0.2-20 microM), biphasic changes in FSH-dependent expression of LH receptor were observed, as measured by the binding of 125I-deglycosylated human choriogonadotropin to the intact cells. Exogenous GM3 suppressed expression of LH receptor in the cells treated with a low dose of FSH (20 ng/ml), which was characterized by a low GM3 level, to 30% of control at 10 microM, with a half-maximal inhibitory concentration of 8 microM. In contrast, in the cells treated with a high dose of FSH (100 ng/ml) and insulin, which was characterized by a high GM3 level, expression of LH receptor was enhanced by exogenous GM3, to 148% of control at 10 microM, with a half-maximal effective concentration of 2 microM. Exogenous GM3 produced concomitant changes in the levels of extracellular cAMP. These effects of exogenous GM3 were not accompanied by changes in granulosa cell proliferation. Exogenous GM3 also modulated the LH receptor expression by the synergistic action of 12-O-tetradecanoylphorbol 13-acetate with insulin, with no significant changes in cellular DNA contents, suggesting that exogenous GM3 does not modulate directly the action of FSH at its receptor sites.(ABSTRACT TRUNCATED AT 250 WORDS)

Changes in cAMP-dependent phosphorylation of specific cytosol protein in the peri- and postmenopausal ovary

Changes in cAMP-dependent phosphorylation of 53 kDa protein in a human ovary with respect to the aging process were studied. The phosphorylation of endogenous proteins in ovarian cytosol decreased with aging. However, ovarian aging was accompanied by an increase in the cAMP-dependent phosphorylation of 53 kDa specific protein while the amount of this protein decreased with aging. The plasma gonadotropin levels of women with regular menstrual periods were significantly different from those of women whose menstrual periods had in the recent past become irregular (FSH: p less than 0.01; LH: p less than 0.05); however, there was no significant difference in the plasma estradiol levels between these two groups. Our data show the possible correlations between the non-steroidal ovarian factor (53 kDa protein) and/or its phosphorylation by cAMP-dependent protein kinase and the ovarian aging process.

Tumor-promoting phorbol ester acts synergistically with insulin to induce lutropin receptor expression in rat granulosa cells

Lutropin (LH) receptors in rat granulosa cells are expressed by activation of cAMP-dependent protein kinase in response to follitropin (FSH). In the present study, 12-O-tetradecanoylphorbol 13-acetate (TPA) could cause a dose-dependent expression of LH receptors in the presence of insulin, but not in the absence of insulin, as measured by binding of 125I-deglycosylated human choriogonadotropin (DGhCG). The synergistic action of TPA with insulin was achieved at 1 nM and 10 mIU/ml, respectively. The receptor expression induced by this synergistic action was accompanied by cAMP accumulation which was detected after a lag time of 6 h following exposure to TPA. However, a synthetic diacylglycerol and non-protein kinase C activating phorbol derivatives did not mimic the effect of TPA on the receptor expression. In addition, insulin modulated the inhibitory effect of TPA in FSH-induced LH receptor expression, indicating a peculiar action of insulin in the receptor expression. Indomethacin treatment led to a dose-dependent inhibition in the receptor expression in the cells treated with TPA plus insulin more than that in the cells with FSH plus insulin, suggesting that the synergistic action was dependent upon cyclooxygenase and/or phospholipase A2 activity. It was shown by Scatchard analysis of LH receptors and kinetic studies of hCG-stimulated cAMP formation that the synergistic action of TPA with insulin led to expression of functional LH receptors coupled with the adenylate cyclase system in cultured granulosa cells.

Intracellular mechanisms of gonadotropin-stimulated gene expression in granulosa cells

Previous studies have shown that the gonadotropins follicle-stimulating hormone and luteinizing hormone stimulate proopiomelanocortin (POMC) promoter activity and mRNA levels in ovarian granulosa cells. The objective of these studies was to determine the role of cAMP-dependent protein kinases (pKA) in gonadotropin-stimulated gene expression. Primary cultures of rat granulosa cells were transfected with a gene construct consisting of the POMC promoter (-150 to +63; designated pOMC-CAT) fused to the chloramphenicol acetyltransferase (CAT) reporter gene either alone or cotransfected with an expression plasmid (designated mutant RI), which overexpresses a mutant form of the murine RI subunit incapable of binding cAMP and serving as an irreversible inhibitor of the catalytic subunit of pKA. Follicle-stimulating hormone or isoproterenol caused a significant stimulation of pOMC-CAT activity in transfected cells. Cotransfection of pOMC-CAT with mutant RI caused a significant inhibition of basal pOMC-CAT activity and abolished the gonadotropin stimulation. As a control, transfection of the SV-40 viral enhancer-promoter fused to CAT (pSV2-CAT) was unresponsive to follicle-stimulating hormone stimulation and cotransfection with mutant RI had no significant effect on pSV2-CAT activity. These studies suggest that gonadotropin regulation of the POMC promoter is mediated by pKA and that promoter activity is stringently controlled by pKA.

Hormonal regulation of LH receptor mRNA and expression in the rat ovary

Agonist-induced changes in expression and mRNA levels of luteinizing hormone (LH) receptors were compared during stimulation of ovarian follicular maturation and luteinization by gonadotropic hormones. Three major species of LH receptor mRNA, 5.8, 2.6 and 2.3 kb, were present throughout differentiation and changed similarly, the 5.8 kb species being consistently more abundant than the smaller forms. The increased expression of plasma-membrane LH receptors in preovulatory follicles and luteinized ovaries and their homologous down-regulation during follicular and luteal desensitization were closely correlated with the steady-state receptor mRNA levels. The reappearance of LH receptors following desensitization during the luteal stage was preceded by an increase in mRNA levels. These studies have demonstrated that the expression of LH receptors during follicular maturation, ovulation and desensitization is related to the prevailing levels of receptor mRNA in the ovary.

Tumor necrosis factor-alpha inhibits follicle-stimulating hormone-induced differentiation in cultured rat granulosa cells

We have investigated the effects of TNF-alpha on FSH-induced LH receptor expression, cAMP and progesterone production in cultured rat granulosa cells. TNF-alpha (0.5-100 ng/ml) inhibits the stimulating action of FSH on LH receptor formation in a dose-dependent manner with an IC50 of 1 ng/ml and an almost complete suppression of LH receptor induction for 50-100 ng/ml TNF-alpha. The inhibitory effect of TNF-alpha is not due to variations in cell number or viability but rather to a reduction of the LH receptor content per cell with no change in binding affinity (KD = 0.8 x 10(-10)M). TNF-alpha also inhibits the FSH-induced cAMP production but at a lower extent, with a maximum reduction of 60% for 100 ng/ml TNF-alpha. Moreover, TNF-alpha impairs the LH receptor formation induced by forskolin, cholera toxin or 8-Bromo-cAMP, indicating that the cytokine also acts at a step distal to FSH receptor and to cAMP formation. Finally, TNF-alpha decreases dramatically the progesterone synthesis that is stimulated by FSH, with a reduction to undetectable levels on and after 10 ng/ml TNF-alpha. These results suggest that TNF-alpha may drastically reduce the capacity of granulosa cells to differentiate upon FSH stimulation and to respond to LH during the physiological ovarian follicular maturation. Such anti-gonadotropic action of TNF-alpha on granulosa cell differentiation may be also relevant to the alteration of ovarian function during physiopathological processes like inflammatory or infection diseases.

Coordinated regulation of morphological and biochemical differentiation in a steroidogenic cell: the granulosa cell model

Studies on the dynamic biochemical and morphological events occurring during steroidogenesis in granulosa cells suggest that the organization and expression of the actin-cytoskeleton may play a major role in the transduction of endocrine and paracrine steroidogenic signals, and in the coordination between the organelles involved in this process. Since steroid hormones are not stored intracellularly, regulation of their production is dependent mainly on the expression of genes coding for membrane-bound steroidogenic enzymes. Recently, the expression of oncogenes of the ras family was also implicated in the regulation of steroidogenesis.

Regulation of tropomyosin expression in the maturing ovary and in primary granulosa cell cultures

Granulosa cell differentiation in vitro in response to gonadotropins is characterized by major changes in cell shape, cell aggregation, and the organization of microfilaments. These changes are associated with enhanced steroidogenesis in maturing granulosa-lutein cells. Since nonmuscle tropomyosin isoforms were implicated in stabilizing actin filaments, we studied the organization and expression of tropomyosin in differentiating primary cultures of rat granulosa cells and during ovarian folliculogenesis and luteinization. In unstimulated primary granulosa cell cultures tropomyosin was found mainly along stress fibers. In differentiating cells tropomyosin staining was diffuse with sometimes a subcortical organization. The changes in tropomyosin organization were accompanied by a pronounced decrease in the synthesis, translation in vitro, and mRNA levels of all the rat nonmuscle tropomyosin isoforms, with a greater reduction in the higher molecular weight isoforms than in the smaller isoforms. Similar results were obtained whether cells were stimulated to differentiate with gonadotropins, with cAMP, by culturing cells on an extracellular matrix, or by treatment with cytochalasin B. The effect of cytochalasin B was reversible; upon removal of the drug tropomyosin synthesis increased to near control levels, while that of proteins associated with luteinization decreased drastically. RNA isolated from ovaries with follicles at the preantral, preovulatory stage and from corpora lutea contained decreased tropomyosin mRNA levels during ovarian luteinization when the level of RNA for a key steroidogenic enzyme, cytochrome P-450 cholesterol side chain cleavage (P-450 scc), increased. The results suggest a physiological relevance for the low level of tropomyosin expression in the mechanisms which bring about the morphological and biochemical development and maturation of granulosa cells.

Effects of progesterone and a progesterone antagonist (RU486) on germinal vesicle breakdown in the mouse

The possibility that ovarian steroids may participate in the inhibition of meiosis has not been rigorously examined. Since progesterone levels are extremely high in follicular fluid prior to ovulation, we tested the possibility that this steroid may be involved in oocyte maturation. To this end, we collected follicular oocytes and cultured them in the presence of dibutyrl cAMP (Bt2), progesterone, and/or the progesterone antagonist RU486 and assessed maturation evidenced by germinal vesicle breakdown (GVBD). Denuded oocytes or cumulus masses collected in the presence of 1 mM Bt2 and subsequently cultured in 25 microM progesterone did not undergo GVBD. However, denuded oocytes and cumulus masses collected in the presence of progesterone and not Bt2 did undergo GVBD (93%). Concentrations of Bt2 (150 microM) that would not inhibit GVBD were inhibitory when used in the presence of progesterone (1-25 microM). Competition experiments using increasing concentrations of the progesterone antagonist RU486 (1-100 microM) did not block the ability of progesterone to enhance the activity of Bt2. We conclude that progesterone alone does not block GVBD; however, in the presence of low concentrations of cAMP it is extremely effective in blocking GVBD. The synergistic activity of progesterone does not appear to be mediated by the progesterone receptor. The data suggest that progesterone and cAMP may operate cooperatively to inhibit meiosis in the ovarian follicle.

Fibroblast growth factor regulates the expression of luteinizing hormone receptors in cultured rat granulosa cells

We have investigated the effects of bFGF on both the FSH-induced LH receptor expression and cAMP production in cultured rat granulosa cells. Concentrations of pure FGF, from 10(-12) M to 10(-10) M, progressively inhibit the stimulatory actions of FSH with an ED50 of approximately 4 x 10(-12) M for both parameters. Higher FGF concentrations, from 4 x 10(-10) M to 10(-8) M, lead to a gradual reduction of the growth factor inhibitory effect. The effects of FGF are more prominent on the modulation of LH receptors than on the FSH-induced cAMP production. Moreover, FGF impairs the LH receptor formation induced by cholera toxin or 8-Bromo-cAMP, indicating that the growth factor also acts at a step distal to cAMP formation. The inhibitory effect of FGF on LH receptor expression increases during the entire course of granulosa cell differentiation, from 24 to 96 h, and is not due to variations in cell number or viability, but rather to a change in the content of LH receptors with no significant modification of binding affinity (KD congruent to 0.8 x 10(-10) M). These results suggest that bFGF may acutely regulate the capacity of granulosa cells to differentiate upon FSH stimulation and to respond to LH during the ovarian follicular maturation.

Regulators of fetal liver differentiation in vitro

Seventeen-day-old fetal rat hepatocytes were employed to examine factors required to promote differentiation in vitro. In the absence of effectors, primary fetal hepatocytes dedifferentiated, as characterized by the rapid decline in synthesis of fetal alpha-fetoprotein (AFP), albumin, and transferrin. On the other hand, cells maintained in the presence of glucocorticoid hormone produced high levels of albumin and transferrin. Glucocorticoid could not prevent the decline in fetal AFP synthesis, but induced synthesis of the 65K variant AFP--the major AFP species produced by adult rat liver. Fetal hepatocytes maintained in the presence of 8-bromo-cAMP (8-BrcAMP), or methyl isobutyl xanthine (MIX), an agent that increases intracellular cAMP levels, synthesized high levels of fetal AFP and albumin but reduced levels of transferrin. Both glucocorticoid and 8-BrcAMP or MIX induced expression of adult liver-specific genes such as tyrosine aminotransferase (TAT) and phosphoenolpyruvate carboxykinase (PEPCK), suggesting that these fetal hepatocytes have matured. Cells maintained in the presence of glucocorticoid hormone and MIX (or 8-BrcAMP) contained more albumin, TAT, and PEPCK mRNAs and synthesized increased amounts of the 65K variant AFP than those with either agent alone. However, the glucocorticoid/MIX cells produced intermediate levels of the fetal AFP and transferrin. Our data indicate that both glucocorticoid hormone and cAMP are necessary for optimal differentiation of fetal hepatocytes in vitro.

Gonadotropin-induced differentiation of granulosa cells is associated with the co-ordinated regulation of cytoskeletal proteins involved in cell-contact formation

The gonadotropin-induced differentiation of granulosa cells in culture was studied, with particular attention being given to the organization and expression of cytoskeletal proteins involved in the formation of cell contacts, as well as to progesterone production. Gonadotropin-treated granulosa cells formed clusters of spherical cells containing few vinculin-containing focal contacts, exhibited a diffuse distribution of actin, and had few adherens junctions but more gap junctions than cells grown without the hormone. In gonadotropin-treated cells, the levels of synthesis of the cytoskeletal proteins, vinculin, alpha-actinin, and actin, were dramatically reduced, but the synthesis of the tubulins and vimentin was unaffected. Decreased levels of synthesis of these cytoskeletal proteins were also observed in an in vitro translation assay using poly(A)+ RNA from gonadotropin-treated cells. The hybridization of cytoplasmic RNA with cloned actin and vimentin cDNAs revealed a marked decrease in actin-RNA levels, but no change in vimentin-RNA levels in these cells. Such alterations in cytoskeletal-protein expression were also observed in cells treated with compounds that cause elevated cellular cAMP levels by acting at a stage beyond gonadotropin receptor stimulation. Furthermore, by keeping the cells in a spherical configuration in suspension culture, or by treating the cells with cytochalasin B, similar changes in the synthesis of these cytoskeletal proteins were observed. During this process, there was a concomitant increased in the production of progesterone (although to a much lesser extent in suspension culture) that occurred in parallel with the appearance of large mitochondria with lamellar-tubular cristae and a well-developed smooth endoplasmic reticulum, these features being characteristic of granulosa-lutein cells in vivo. Our results suggest that changes in cell shape and contact, together with the regulation of cytoskeletal elements that determine cellular morphogenesis, are part of the gonadotropin-controlled differentiation program in granulosa cells and may also occur during the maturation of these cells in vivo.

Alterations in hormone-sensitive adenylate cyclase of cloned rat osteosarcoma cells during long-term culture

The hormone-sensitive adenylate cyclase system of a cloned bone cell line (UMR-106) derived from a rat osteosarcoma was compared in preparations from cells of early passages (less than 50) and cells maintained in continuous culture for over two years (late passages). Late passage cells showed greater calcitonin (CT)-stimulated adenylate cyclase activity than did early passages, whereas stimulation by PTH and the beta-adrenergic agonist isoproterenol decreased in late passages. Hormone concentrations giving half-maximal stimulation were the same in early and late passages. Stimulation by agents (GTP and fluoride) which act at the stimulatory guanine nucleotide regulatory component (Ns) of adenylate cyclase was equivalent in early and late passages. Forskolin stimulation, which assessed catalytic component (and possibly Ns) activity, was reduced in late passages. These results are consistent with acquisition by cultured UMR-106 cells of CT receptors linked to adenylate cyclase and loss of PTH and beta-adrenergic receptors. Alteration of catalytic component (and/or Ns) function may also occur after long-term culture. Since late passage cells appear dedifferentiated by chromosomal analysis and since cAMP may regulate differentiation, altered hormone-sensitive adenylate cyclase may be a marker for and a potential modulator of differentiation occurring in UMR-106 cells over long periods.

Development of activatable adenylate cyclase in the preimplantation mouse embryo and a role for cyclic AMP in blastocoel formation

Forskolin- and cholera toxin-activated adenylate cyclase activity increases between the morula and blastocyst stages of mouse preimplantation development, as assessed by the ability of these agents to increase embryonic cAMP levels. Development of activatable adenylate cyclase requires transcription but is independent of the fifth nuclear replication, cell division, and compaction. Early cavitating embryos treated with cholera toxin and forskolin or with N6-monobutyryl-cAMP display an increase in the rate of fluid accumulation in comparison with untreated controls. The stimulatory effect is specific for cAMP, since neither the inactive cAMP analogue N6-monobutyryl-2'-deoxy-cAMP nor N2-monobutyryl-cGMP stimulates the rate of fluid accumulation. These results constitute the first report of a possible physiological function for cAMP in preimplantation development, namely, in blastocoel formation.

The effect of retinoic acid on protein phosphorylation in mouse melanoma cells

Vitamin A inhibits growth and increases the activity of cAMP-dependent protein kinase in B16 mouse melanoma cells. In this report we show that retinoic acid (RA) treatment of intact cells alters their subsequent in vitro protein phosphorylation, but we could not demonstrate any changes in in vivo protein phosphorylation. A 48-h treatment with RA results in a concentration-dependent decrease of protein phosphorylation of a 95K molecular weight (MW) protein in both supernatant and particulate fractions. The phosphorylation of this protein does not appear to be regulated by cAMP. Proteins at 92K and 82K MW in the supernatant fraction are increased in phosphorylation. The former (but not the latter) is regulated by cAMP. In the particulate fraction a variety of proteins 12K-68K MW are increased in phosphorylation, as the cells are treated with increasing amounts of RA. The phosphorylation of most of these proteins is regulated by cAMP. Another inhibitor of B16 cell growth, melanocyte-stimulating hormone (MSH) also alters protein phosphorylation. At short incubation periods (1 h), this hormone stimulates phosphorylation of a number of proteins (17-40K MW), while in longer incubation periods (48 h) phosphorylation is inhibited. All of these phosphorylations appear to be regulated by cAMP. We attempted to repeat these observations using intact-cell phosphorylation with 32PO4. In two experiments we saw small changes in the phosphorylation of proteins. In most experiments, however, we could find no change in the phosphoproteins. Further experiments have led us to question the in vivo phosphorylation, since treatment of the cells with MSH, cholera toxin, or db-cAMP also did not affect intact-cell protein phosphorylation. We have previously documented that under these latter conditions cAMP levels are greatly elevated and cAMP-dependent protein kinase is activated. The in vitro phosphorylation results suggests that in RA-treated cells, kinase activities and/or protein substrate levels are changing. However, the physiological significance of the particular MW phosphoproteins changes we have described must await resolution of the in vivo phosphorylation data.

Processing of human choriogonadotropin and its receptors by cultured pig Leydig cells. Role of cyclic AMP and protein synthesis

We have examined the process by which human choriogonadotropin/luteinizing hormone (hCG/LH) receptors are regulated in cultured porcine Leydig cells. Treatment of Leydig cells with human choriogonadotropin, cholera toxin, forskolin and cyclic 8-bromoAMP (8-BrcAMP) produced a loss of surface receptors without modification of the binding affinity. This negative regulation of the number of receptors mediated by maximal concentrations of hCG was higher than that induced by the other agents. The extent of receptor loss in cells treated with increasing concentrations of hCG was highly correlated with their capacity to stimulate cAMP production. However, there was little correlation between down-regulation and cAMP production of these cells treated by hCG plus forskolin or cholera toxin plus forskolin, where a synergistic cAMP production was obtained. Following exposure of Leydig cells to both hCG and 8-BrcAMP, the surface receptor disappearance began after an initial lag period of about 6-8 h. Thereafter a 50% loss of surface receptor was observed in the next 8-h incubation. Monensin with hCG shortens this lag period before initiation of receptor loss. Kinetic studies with 125I-hCG, in the presence or absence of monensin, showed that the half-life of the receptor-bound hormone complexes at the cell surface was 10.5 h and 8 h respectively. Therefore, the steady state of the surface receptor during the lag phase of 8 h is probably related to recycling of internalized receptors and/or translocation of performed receptors. Cycloheximide and actinomycin D inhibit hCG-mediated and 8-BrcAMP-mediated down-regulation. Cycloheximide lengthens ligand-receptor complexes at the surface by slowing down the rate of internalization (half-life of 20 h), but this mechanism is not enough per se to explain the effect of cycloheximide. Pulses of hCG or 8-BrcAMP for 4 h and 8 h sufficed to induce nearly maximal down-regulation. However, it was possible to attenuate this triggering effect by adding cycloheximide after pulse of the cells. Thus, even after removal of the triggering agent (hCG or 8-BrcAMP), the loss of surface receptor could be triggered by a protein-sensitive signal. Taken as a whole these results indicate that a coordinated interaction is involved in the cell-surface hCG/LH receptor regulation. The apparent steady state of the number of receptors during the first hours of stimulation passed through a reuptake of internalized receptors.(ABSTRACT TRUNCATED AT 400 WORDS)

Differential actions of phorbol ester and diacylglycerol on inhibition of granulosa cell maturation

Hormonal induction of granulosa cell maturation is inhibited by phorbol esters and permeant synthetic diacylglycerols, but these activators of protein kinase C differ in their effects on cAMP production and actions. Both agents prevented the induction of luteinizing hormone receptors and progesterone biosynthesis by follicle-stimulating hormone, choleragen, and forskolin, but only diacylglycerol abolished the cAMP responses to these stimuli. Granulosa cell aggregation and aromatase activity were inhibited by phorbol ester but not completely by diacylglycerol. In intact granulosa cells, cytosolic C kinase activity was rapidly decreased by phorbol ester but unaffected by diacylglycerol. Although diacylglycerol has a marked inhibitory action on cAMP production, the more prominent suppression of granulosa cell differentiation by phorbol ester may be related to its rapid and prolonged action on kinase C.

Gonadotropin-releasing hormone as a modulator of ovarian function

GnRH and its agonist analogs exert direct inhibitory and stimulatory effects on the ovaries of animals from several species. In the immature follicle, GnRH inhibits the actions of FSH on an integrated array of biochemical responses that lead to follicular development and corpus luteum formation. GnRH also suppresses gonadotropin action in mature follicles, and stimulates certain ovarian processes such as steroidogenesis and oocyte maturation. The inhibitory and stimulatory effects of GnRH are mediated through the binding of the peptide to high-affinity receptors in granulosa and thecal cells. Recent studies have shown that GnRH action in the ovary is dependent upon calcium mobilization and probably operates through stimulation of phospholipid turnover and activation of protein kinase C.

Forskolin and phosphodiesterase inhibitors stimulate rat granulosa cell differentiation

The effect of forskolin (an adenyl cyclase activator) and 1-methyl-3-isobutylxanthine (MIX, a phosphodiesterase inhibitor) on granulosa cell steroidogenesis and LH receptor formation was studied in vitro. Granulosa cells from immature hypophysectomized, estrogen-treated rats were cultured for 2-3 days in androstenedione-supplemented media in the absence or presence of FSH or forskolin (10(-7)-10(-4) M). Some cultures were also treated with forskolin with or without MIX (0.125-1.0 mM) or theophylline (1.25-10 mM). Forskolin (3 X 10(-6)-10(-4) M) stimulated the production of estrogen, progesterone, 20 alpha-hydroxypregn-4-en-3-one (20 alpha-OH-P) and cAMP in a dose-related manner to levels similar to or higher than that elicited by FSH alone. Similarly, forskolin and FSH both increased LH/hCG receptor content in cultured granulosa cells, although forskolin was only 50% as effective as FSH. Treatment with MIX alone increased basal levels of cAMP, accompanied by elevations of estrogen and progestin biosynthesis without affecting LH/hCG receptor content. In contrast, theophylline treatment only increased cAMP and progestin accumulation. Furthermore, MIX potentiated the stimulatory effects of forskolin and FSH on cAMP and progestin production. In contrast, MIX inhibited FSH- and forskolin-stimulated estrogen production. Thus, activation of adenyl cyclase and inhibition of cAMP breakdown in the cultured rat granulosa cells enhance steroidogenesis and LH receptor formation, reinforcing the concept that cAMP is a (but may not be the only) second messenger in the hormonal regulation of granulosa cell differentiation.

Low molecular weight substance from rat ovary induces steroidogenesis in cultured granulosa cells

Ovaries from immature intact rats contain an apparently low molecular weight substance which mimics the action of follitropin (FSH) on ovarian granulosa cells in culture. Similar to FSH action, the ovarian substance (OS) induced cell-shape changes followed by intensive progestin production. Like FSH action, OS-induced steroidogenesis reversibly ceased upon washing the factor from the cultured cells, and could be blocked in the presence of cycloheximide or alpha-amanitin. Although OS stimulated aromatase activity in granulosa cells, it failed to elicit LH responsiveness in the cultured cells. Androstenedione synergistically augmented OS-induced progestin production and aromatase activity. OS itself synergistically augmented FSH-induced progestin but did not have any effect on FSH-induced aromatase activity. In contrast to FSH action which is mediated via cAMP formation, OS doses which evoked extensive synthesis of progestin products failed to stimulate significant increases in intracellular cAMP accumulation. These results suggest the existence of a putative intraovarian hormone-like substance which can mimic some effects of the gonadotropins on the follicular granulosa cell differentiation and may facilitate FSH action at yet unknown stages of the follicular development.

A model system for the biochemical study of luteinizing hormone/chorionic gonadotropin receptor synthesis

A model system for the biochemical study of LH/CG receptor synthesis has been developed. Culture conditions for porcine granulosa cells were adapted that maximized the selective induction of LH/CG receptors by cAMP-inducing stimuli with an elimination of background LH/CG receptor appearance. It was found that the addition of FSH (1.5 micrograms/ml) or cholera toxin (10 ng/ml) 1 day after plating resulted in optimal induction of the LH/CG receptor (20-60 pg [125I]CG bound/micrograms DNA 72 h after addition) with virtually no LH/CG receptor appearance in the absence of added stimuli. Later additions of FSH or cholera toxin required insulin (1.0 microgram/ml) which alone caused background LH/CG receptor appearance in the absence of any additional stimuli. Furthermore, insulin increased the general rate of cellular protein synthesis, whereas FSH or cholera toxin each decreased it. Thus, the use of FSH or cholera toxin, without insulin, may enable one to detect the synthesis of the LH/CG receptor by metabolic labeling techniques where background protein synthesis has been lowered.

GnRH agonist-induced inhibitory and stimulatory effects during ovarian follicular maturation

The in vivo regulation of ovarian gonadotropin and prolactin receptors and adenylate cyclase activity by FSH, and the potent GnRH agonist [D-Ala6]des-Gly10-GnRH N-ethylamide (GnRHa), was studied in immature hypophysectomized diethylstilbestrol-implanted rats. During FSH treatment over a 48 h period, FSH receptors increased 2-fold with the maximum response during the first 12 h, whereas LH and prolactin receptors increased by 10-fold and 6-fold with the maximum response from 12 to 48 h. Administration of GnRHa at any time during the 48 h period of FSH treatment inhibited the subsequent development of gonadotropin and PRL receptors. In contrast, administration of a single dose of 10 micrograms GnRHa after 48 h of FSH treatment stimulated follicular luteinization and caused increases in basal adenylate cyclase activity, ovarian weight and PRL receptor content, and concomitant decreases in gonadotropin receptors and adenylate cyclase responses. In the immature follicles of animals not primed with FSH, GnRHa caused progressive inhibition of FSH-sensitive adenylate cyclase activity, with a decrease in FSH receptors, but increased both basal and GMP-P(NH)P-stimulated adenylate cyclase activities. These results demonstrate that GnRHa causes marked inhibition of gonadotropin receptor expression in the basal and FSH-stimulated ovary. This decrease in gonadotropin receptors is an important component of the mechanism by which GnRH agonists inhibit ovarian gonadotropin-sensitive adenylate cyclase activity. In addition, these peptides exert stimulatory effects upon ovarian weight and basal adenylate cyclase activity, and cause an increase in PRL receptors and luteinization of mature ovarian follicles.(ABSTRACT TRUNCATED AT 250 WORDS)

Microtubule regulation of cell surface receptor topography during granulosa cell differentiation

A possible role for cytoplasmic microtubules in modulating lectin binding site topography has been examined during the hormone-directed differentiation of rat ovarian granulosa cells in vitro. Indirect immunofluorescence staining with anti-tubulin antibodies indicates that undifferentiated cultured granulosa cells contain a network of microtubules which radiate from the cell center to the cell periphery. Cultures induced to differentiate by a three day treatment with 1 microgram/ml prolactin exhibit a marginal distribution of microtubules and a centrally-located primary cilium. Prolactin enhances the incidence of granulosa cells containing a primary cilium from 9% in undifferentiated cultures to 53% in hormone-treated cultures. The pattern of lectin binding site redistribution induced by Concanavalin A (Con A) is also modified by prolactin treatment. In contrast to undifferentiated cells, which randomly endocytose fluorescein Con A, granulosa cells exposed to prolactin respond to fluorescein Con A by forming central surface caps to a greater extent (75%) than undifferentiated controls (25%). Double label fluorescence microscopy and transmission electron microscopy on Con A labeled cells show that caps form at central cell surface sites which contain the primary cilium. Disruption of cytoplasmic microtubules by colchicine, in undifferentiated granulosa cells, results in the formation of cell surface caps upon Con A addition. These data suggest that cytoplasmic microtubules modulate the topography of lectin bindings sites which is subject to hormonal control during the in vitro differentiation of ovarian granulosa cells.